Onsite Mobile Manufacturing Platform

1. A mobile manufacturing system comprising: a control unit configured for ready portable transport via a vehicle from a storage site to a worksite and then back to the storage site, the worksite located remotely from the storage site; a manufacturing unit operatively coupled to the control unit and configured for ready portable transport via the vehicle to the worksite, the manufacturing unit configured to fabricate a component of a water infrastructure system using an automated manufacturing process based on a three-dimensional solid model of the component saved on a computer-readable storage medium operatively coupled to the control unit; and a quality test unit operatively coupled to the control unit and configured for ready portable transport via the vehicle to the worksite and to perform testing on one of the fabricated component and a sample of a batch of a material used to fabricate the component, the testing comprising one of hardness testing to evaluate a material hardness of the fabricated component and surface finish testing to evaluate surface roughness on the fabricated component.

2. The mobile manufacturing system of claim 1 , further comprising a transport device configured to transport at least one of raw materials, partially fabricated parts, and fabricated parts to the worksite.

3. The mobile manufacturing system of claim 2 , wherein the transport device is an unmanned aerial vehicle (UAV).

4. The mobile manufacturing system of claim 1 , wherein the quality test unit is configured to perform tensile testing on one of the fabricated component and on the sample of the batch of the material used to fabricate the component.

5. A mobile manufacturing platform comprising: a control unit; a manufacturing unit operatively coupled to the control unit, the manufacturing unit configured to fabricate a component of a water infrastructure system using an automated manufacturing process based on a three-dimensional solid model of the component, the manufacturing unit comprises a three-dimensional printer; and a quality test unit operatively coupled to the control unit and configured for ready portable transport via a vehicle to a worksite and to perform testing on one of the fabricated component and a sample of a batch of a material used to fabricate the component, the testing comprising one of hardness testing to evaluate a material hardness of the fabricated component and surface finish testing to evaluate surface roughness on the fabricated component; and wherein the platform is configured for transport via the vehicle to the worksite.

6. The mobile manufacturing platform of claim 5 , wherein the quality test unit comprises a tensile test unit configured to perform tensile testing on the sample of the batch of the material used to fabricate the component.

7. The mobile manufacturing platform of claim 5 , further comprising a transport device configured to transport at least one of raw materials, partially fabricated parts, and fabricated parts to the worksite, the transport device being an unmanned aerial vehicle.

8. A method of manufacturing a component, the method comprising: fabricating, via a manufacturing unit, a component of a water infrastructure system on a mobile manufacturing platform at a worksite using a three-dimensional printer based on a solid model of the component saved on a computer-readable storage medium operatively coupled to a control unit, the mobile manufacturing platform comprising the control unit, the manufacturing unit operatively coupled to the control unit, and a quality test unit; performing, via the quality test unit operatively coupled to the control unit and configured for ready portable transport via a vehicle to a worksite, testing on one of the fabricated component and a sample of a batch of a material used to fabricate the component on the mobile manufacturing platform, the testing comprising one of hardness testing to evaluate a material hardness of the fabricated component and surface finish testing to evaluate surface roughness on the fabricated component; and alerting a user of the mobile manufacturing platform as to whether a characteristic of the one of the fabricated component and the sample of the batch of the material used to fabricate the component is within an acceptable range; and wherein the platform is configured for transport via the vehicle to the worksite.

9. The method of claim 8 , wherein the platform further comprises a three-dimensional scanner operatively coupled to the control unit, the method further comprising: scanning into electronic data with the scanner three-dimensional geometry of the component, a one of the control unit and the scanner comprising a converter; converting the data into the solid model of the component using the converter; sending the data from the control unit to a server comprising the computer-readable storage medium; and storing the data on the computer-readable storage medium.

10. The method of claim 8 , further comprising transporting at least one of raw materials, partially fabricated parts, and fabricated parts to the worksite with an unmanned aerial vehicle (UAV).

11. The method of claim 8 , wherein the quality test unit further comprises a tensile test unit, the method further comprising: fabricating the sample from the batch of the material used to fabricate the component; and performing tensile testing on the sample.

12. The method of claim 8 , further comprising sending data on the fabricated component to a certification agency.

13. The method of claim 11 , further comprising: comparing a tensile strength of the sample with a reference strength of the material used to fabricate the component; and alerting the user of the mobile manufacturing platform as to whether the tensile strength of the sample is within an acceptable range about the reference strength of the material.

14. The method of claim 8 , further comprising tagging the fabricated component with a digital signature that provides information about the fabricated component.

15. The method of claim 14 , further comprising storing quality assurance data gathered from the testing in the digital signature.

16. The method of claim 15 , wherein storing quality assurance data gathered from the testing in the digital signature comprises storing the quality assurance data on a radio-frequency identification (RFID) tag.

17. The method of claim 8 , further comprising performing pressure testing on the one of the fabricated component and the sample of the batch of the material.

18. The method of claim 8 , further comprising performing non-destructive testing on the one of the fabricated component and the sample of the batch of the material.

19. The method of claim 8 , wherein performing testing on the one of the fabricated component and the sample of the batch of the material used to fabricate the component comprises performing hardness testing on the one of the fabricated component and the sample of the batch of the material.

20. The method of claim 8 , wherein performing testing on the one of the fabricated component and the sample of the batch of the material used to fabricate the component comprises performing surface finish testing on the one of the fabricated component and the sample of the batch of the material.